DE1671702B1 - MULTIPLE SLEEVE FOR TUBE ELECTRODES FOR GALVANIC ELEMENTS IN PARTICULAR FOR LEAD ACCUMULATORS - Google Patents

Description

1 2

The invention relates to a multiple cover for tube electrodes for galvanic elements, for tube electrodes for galvanic elements, in particular for lead batteries, the multiple, in particular for lead batteries, the multiple connected by at least one cross connection connected by at least one cross connection and spaced apart, parallel and having spaced apart, parallel 5 cores of conductive material, each core of conductive material, each core of active mass and the active mass of core of active mass and the active mass of an electrolyte-permeable shell made of electrolyte on an electrolyte-permeable shell is surrounded by electrolyte-resistant, insulating material, is surrounded by the permanent, insulating material. The fact that the covering surfaces, which lie in the plane with such multiple covering electrodes, are made of fibrous material are generally referred to as tubular plates, and they are usually connected to one another by plastic partitions as a positive electrode in lead Accumulators attached to the shell surfaces are used. In order to make the casings sufficiently stiff at a distance from one another, it has already been proposed to lie and the partition walls with the casing surfaces to form the individual tubes with acid-resistant impregnation agents,
impregnate, for example with phenolic resin or the shell surfaces, which are in the same plane He-epoxy resin, so that they keep their shape better. gene like the electrode flat sides, there are preferential-The disadvantage is that a substantial part is made of non-impregnated fiber material, for. B. the required porosity is lost, which has the consequence of glass fibers in the form of a braid, a fabric, that the active material, which is enclosed in such a felt or a combination of some or some sheath, is not all effective such fiber types.

is used, d. that is, the capacitance of the electrode is low. Other suitable fiber materials are polyester. Impregnation also has the disadvantage that fibers, polypropylene fibers and any material that the material becomes fragile and brittle. that against the chemical and electrochemical

There are also covers for electrode rods in tubes. 25 attacks to which the material can be exposed,

chenplatten known, which is mostly resistant to over everyone.

In a preferred form of multiple sheaths, a rod-attached separate tube consists of a single tube

The shell surfaces consist of porous material or of porous material in grain of the type mentioned

combination with an outer jacket made of slotted, non-impregnated fiber material and the one

or perforated foil material. For individual tubes from 30 separating walls

Before electrode rods are also coherent foil material or are essentially not reinforced

Cases known. . porous fiber material.

These sheaths can be made from a double weave. It can also be advantageous according to the invention

of a special kind, a so-called »cartridge band- the lower part of the mentioned shell surfaces

weave «, the juxtaposed 35 application on the core and after the introduction of the

forms parallel tubes. As a material in this last active compound on the lower core to form a supporting edge

Electrode sheaths mentioned will mostly be polyester pressed together.

fiber or a mixture of polyester fibers. According to the invention, there is also a multiple cover

and other plastic fibers, for example poly for a tube electrode for galvanic elements,

vinyl chloride yarn is used. By pulling up the 40 lead-acid batteries in particular, the several by

Cover on mandrels fitting into the tubular channels at least one cross connection connected and im

and heating the same, a mutually spaced, parallel cores is achieved

Inside of the synthetic fibers, whereby the sheaths, made of conductive material, with each core

after the spikes are removed, retain their shape. of active mass and the active mass of one

According to another proposal, two fa- 45 electrolyte-permeable sheaths made of electrolyte-resistant

sermatten, for example fabric made of insulating _gem5 insulating material is surrounded and in the

and acid-resistant material, the sleeves assigned to the individual tubes are placed on top of one another

and spaced at a distance _e j _NEN rectangular cross-section having extending

parallel seams stapled together, which, in addition, is characterized by the fact that the tube covers are made of

Canals that lie one above the other are created, which consist of the front 50 fiber braid, felt or fabric that passes through

fused thermoplastic strips by the

can be. If the fiber layers only consist of the entire thickness and length of the tube casing.

consist of thermoplastic material, the other can be connected.

bond can also be made by welding. Multiple- Further details of the invention are provided at

Cases of the type mentioned have the disadvantage, however, 55 Hand of the drawings explained. It shows

that the space in the accumulator cell only in Fig. 1 is a perspective view of a multiple shell for one

is imperfectly exploited, since the sleeve-tube electrode according to the invention,

Channel channels practically only with a circular cross-F i g. Figure 2 is a cross-section of part in the direction of

cut can be made and also when the arrow AA in F i g. 1

they were made with a rectangular cross-section from the start. 3 the same cut, but with an additional one, they are due to the space-to-borrow mat in the electrode level,
would in any case take away more of the active mass. Figures 4 and 5 illustrate one possible method or take a less circular shape. for the production of electrode sheaths according to

The invention was therefore based on the object of the invention,

To create multiple covers for tube electrodes, 65 FIG. 6 to 11 different embodiments of the

which do not have the disadvantages already mentioned Invention,

and are easy and economical to manufacture. Fig. 12 shows a cross section through a further elec-

According to the invention, the multiple shell trode, which is in a parallel plane like the electrode

3 4

flat and at a distance therefrom with an additional shape of the electrode sheaths according to the invention.

Reinforcement mat is provided, which is provided by a In F i g. 6 and 7, the shell surfaces 8 consist of

melting or welding on the spacer parts 14 fiber material and the plastic partitions 9

is attached, made of an acid-resistant insulating film, e.g. B.

F i g. 13 a different cross-sectional shape of the 5 polyester film, which is perforated at the edges and

individual shell channels, which consist of different Ge on the shell surfaces 8 by melting

Can be advantageous points of view, polyester threads 10 are attached. F i g. 8 and 9 show

F i g. 14 shows a variant of the shell, which in the ge a modification of the shell according to FIG. 6, 7th between

The example shown consists of fiber walls, the plastic partitions 9 in the area shown in the illustrated In front of each other there was an intermediate wall 11 made of polyester or one of the solid walls

preferably thermoplastic material, other heat-softening or melting

are held, the material attached with the help of a welding process. In Fig. 10, the

has been made to fit into the fiber mats- plastic partitions 9 and the cover surface 8

penetrate and thus form parallel channels; with the help of profiled strips 12 made of suitable material

F i g. 15 and 16 show reinforcement strips that are 15 materially joined together.

at the top and possibly at the bottom of the electrodes are; walls shown made from a reinforced profile 13

Figs. 17 and 18 show the lower part of the fer- for example polyester, with the rivets Electrode in longitudinal section; is made of polyester film, which is

F i g. 19 shows a vertical section through FIG. 20 and welding process of the polyester not deformed

an electrode rod, the cut becoming rectangular. F i g. 12 shows part of a battery pack

is placed on the surface of the electrode; built-in electrode in cross section.

F i g. 20 shows schematically the electrode with the The electrode sheath consists of a sheath next to one another after the parts and the subordinate channels made of glass fiber stockings 3 have been assembled according to FIG closing shaping of the envelope. 25 Fig. 2 and 4. The thermoplastic strips 4, the

A particularly advantageous embodiment that has been described above are designed so

Sheath according to the invention is shown in FIGS. 1 and 2 that they are outside the surface of the electrode

shown, where F i g. 2 only illustrates how the extend and form spacer elements 14, whereby

Channels are arranged side by side, around which the attached to both sides of the electrode

To facilitate attachment on the electrode, with the 30 separators 15 kept at a certain distance

Reinforcement strips 1 and possibly 2 in FIG. 1 so that the electrolyte access to the

can be seen. The individual channels are made easier when electrodes are used. The active material 17

of the embodiment according to FIG. 2 by drawing surrounds the electrode cores 16. In FIG. 13, a

on mandrels of juxtaposed braided holes- slightly different cross-section for the electrodes-

Tenen glass fiber stockings 3 are shown with 35 channels connected between them. In Fig. 14 are the channels through im

arranged thermoplastic strips 4 formed. The spaced apart fiber mats 18

The joining of the individual tube sheaths 3 is formed which are parallel along their length by being the same

follows from the fact that the mandrels 5 are heated and strips 19 forming against one another, forming partitions, come together.

are pressed differently, as indicated by the arrows, which are advantageous by welding

is tet. The mandrels are connected to the mats 18 up to the melting point 40 or meltdown

of the polyester heated, the mentioned material in be.

the fiberglass layers on either side of it one The finished electrode is easiest at the bottom

penetrates and the layers are connected to one another in that part of the shell of

the. This means that a wall made of glass fiber - the active electrode material is kept free

Reinforced polyester is produced, which is stiff enough, so 45 and the core 16 does not extend over the entire length of the shell

that the electrode shell extends without further impregnation, so that the shell is compressed

and finish retains its shape. can and by applying heat after

In Fig. 3, the flat surface of the electrode shell Fig. 17 is melted together, whereby a with a fiber layer 6 in the form of a fabric, rigid floor groove or strip 20 is created. F i g. 18th or a felt further reinforced. Instead of glass fibers 50 shows a modification of the arrangement of the bottom can another acid-resistant insulating fiber strip, the active material 17 and the material, e.g. B. polyester or polypropylene, use core 16 protruding part of the electrode shell so be det. Instead of an intermediate layer of poly- long is that they can be folded over and if necessary Ethylene, another thermoplastic material, another reinforcement strip or wire 21 can be used be e.g. B. Polypropylene or Poly- 55 can be joined, after which the part by application vinyl chloride. Because of the release of chlorine, heat and pressure are generated to form a supporting edge 22, the latter material is usually less suitable. which is also called the skirting board, together

F i g. 4 and 5 explain a method for melting.

In Fig. 19, the electrode cover 3 surrounds the sock 3 drawn on flat mandrels 7 and 60 border core 16 and the active material 17. In the case of thermoplastic strips 4, placed between them. Connection to an upper transverse strip 23 increases heat and pressure are applied in the direction of the arrow, the diameter of the conductive core 16 is advantageous, melting together by the penetration so that it is achieved with the inner circumference of the sheath 3 in Bedes polyester in the glass fiber layer. emotion comes. The core has a track 24 around it. Then the mandrels 7 are taken out, then 6 _{5 provided} around the extension against which the upper part of the casing is pulled out and takes the edge of the casing with the reinforcing strip 1 through Fig. 4 shown. Pressure and heat is applied. In the drawing, Figs. 6 to 11 show other embodiments are suitably shaped heating plates 25 and 26 sym-

indicated in bolisch. At the bottom the electrode is terminated in the manner related above with F i g. 17 and 18 has been mentioned. The hot plates are here with 27 and 28 designated.

Instead of polyester or another thermoplastic material for the partition walls or as Another synthetic hard material can also be used to connect the individual sheaths will. It is usually used in a liquid or viscous manner. For example, epoxy resin can be used will.

Claims (4)

Patent claims: 1. Multiple cover for tube electrodes for galvanic elements, especially for lead-acid batteries, the several parallel cores connected by at least one cross connection and arranged at a distance from one another comprising conductive material, each core of active mass and the active mass of one is surrounded by an electrolyte-permeable shell made of electrolyte-resistant, insulating material, characterized in that the shell surfaces (8, 18) which are in the plane of the electrode are made of fibrous material and are connected to each other by plastic partitions (9,19) are connected, which are attached to the shell surfaces (8,18) so that these surfaces at a distance are from each other and the partition walls (9 to 19) with the shell surfaces (8,18) the individual Form tubes. 2. Multiple envelope according to claim 1, characterized in that the envelope surfaces (8,18) from non-impregnated fiber material and the intermediate walls (9) that form the individual tubes consist of foil material or reinforced substantially non-porous fiber material. 3. Electrode according to claims 1 and 2, characterized in that the lower part of the Cover surfaces (8, 18) after being attached to the core (16) and after the active material has been introduced is pressed together at the lower part to form a supporting edge (20, 22). 4. Multiple sheath for a tubular electrode according to the preamble of claim 1, in which the casings assigned to the individual tubes have a rectangular cross section, as a result characterized in that the tube covers (3) consist of fiber braid, felt or fabric, by fused thermoplastic strips (4) through the entire thickness and length the tube cover are connected to each other. 1 sheet of drawings